Research Infrastructure for Novel Electron Qubits
Abstract
Electron charge and spin qubits on quantum-solid neon (Ne) show ultralong coherence times and are emerging promising platforms for quantum computing. However, investigating and operating such qubits requires dedicated infrastructure. In this project, we will acquire and establish a unique experimental setup consisting of a 10mK cryogen-free dilution refrigerator with a 9T-1T-1T superconducting vector magnet, nearly a hundred dc wires and microwave coaxes, multiple customized noble-gas fill lines, and all necessary cryogenic microwave components. This infrastructure will be dedicated to performing comprehensive quantum microwave and transport studies of the novel electron qubits on solid Ne. In future, this infrastructure can also be used to explore other novel quantum computing and sensing platforms based on exotic quantum phenomena in condensed matter systems at ultralow temperature and strong magnetic field.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Mar 06, 2024
- Source ID
- FA95502310526
Entities
People
- Amir Yacoby
Organizations
- Air Force Office of Scientific Research
- President and Fellows of Harvard College
- United States Air Force